KR101824943B1 - Broadcasting and communication complex router - Google Patents

Abstract

The present invention relates to a telecommunication hybrid router, which receives a mobile communication signal through a first antenna and converts the signal into an intermediate frequency signal, demodulates and outputs the intermediate frequency signal, demodulates the mobile communication transmission signal, A mobile communication front-end module for transmitting through the mobile communication terminal; A mobile broadcast receiver for receiving a broadcast signal through a second antenna and separating data and generating and outputting a broadcast data signal using the separated data; Converts the demodulated mobile communication signal output from the mobile communication front end module into a wireless LAN signal and outputs the wireless LAN signal, converts the broadcasting data signal output from the mobile broadcasting receiver into a wireless LAN signal, A communication modem for converting a signal into a mobile communication transmission signal and providing the signal to the mobile communication front end module; And a wireless communication module for transmitting the wireless LAN signal output from the communication modem to the mobile device via the third antenna and for receiving the wireless LAN signal for mobile communication transmission received from the mobile device through the third antenna, And a LAN interface unit.

Description

{Broadcasting and communication complex router}

The present invention relates to a telecommunication composite router.

With the development of communication technology, mobile communication technology using wireless communication network and mobile communication terminal has been established.

In the initial mobile communication method, since the target was set for a voice call service that provides a voice call to mobile terminal users wirelessly, the data service has remained at a basic level such as a text message service.

However, as the spread of the mobile communication network gradually expanded and wireless internet service became possible, various application services using mobile communication began to be developed. Typical examples are online games using mobile communication networks, e-mail transmission, and web search.

As these services have been created, mobile communication networks have evolved not only for voice-oriented services but also for data services such as packet data.

Recently, in wireless communication using 3G service, traffic is increasing due to an increase in data service. To solve this problem, 4G (LTE, WiMAX) service is being introduced.

Meanwhile, wireless local area network (WLAN) technology has been commercialized as a part of wired / wireless integrated services for realizing convenient mobility in existing wired communication networks. The wireless LAN service includes a wireless LAN access point (AP) at the end of a subscriber network such as ADSL, VDSL, and E1, and a subscriber uses a terminal equipped with a wireless LAN network adapter within the coverage of the access point To receive wireless Internet service.

The wireless LAN service is advantageous in that the coverage of the access point is only a few tens of meters, so that long-distance wireless communication is not possible and the installation location of the access point is limited.

In recent years, as disclosed in Korean Patent Laid-Open Publication No. 2005-0107120, a wireless LAN and a mobile communication network are connected to a communication router through a wireless LAN And provides mobile communication services to subscribers.

In such a communication router, a service using streaming technology is provided to allow terrestrial TV broadcasting to be viewed on a mobile device.

However, in the communication router according to the related art, the service using the streaming technology for enabling the terrestrial TV broadcasting to be watched is not suitable for the traffic increase due to the increase of the data service in recent years.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a mobile communication system and a mobile communication method, which can prevent a traffic increase by utilizing a receiving function through a mobile broadcasting network rather than a streaming service, To provide a composite router.

According to another aspect of the present invention, there is provided a mobile communication system, comprising: a base station for receiving a mobile communication signal through a first antenna, converting the received mobile communication signal into an intermediate frequency signal, demodulating and outputting the intermediate communication signal, A mobile communication front end module transmitting through a first antenna; A mobile broadcast receiver for receiving a broadcast signal through a second antenna and separating data and generating and outputting a broadcast data signal using the separated data; Converts the demodulated mobile communication signal output from the mobile communication front end module into a WLAN data format and outputs the WLAN data format, converts the broadcasting data signal output from the mobile broadcasting receiver into a WLAN data format, A communication modem for converting a wireless LAN signal into a mobile communication transmission signal and providing the wireless communication signal to the mobile communication front end module; And a mobile communication system for transmitting a mobile communication signal or a broadcasting data signal converted into a wireless LAN data format output from the communication modem to a mobile device via a third antenna, And a wireless LAN interface unit for receiving the signal and providing it to the communication modem.

In addition, the mobile communication front end module of the present invention includes a receiving unit for receiving a mobile communication signal from a mobile communication network through a first antenna, converting the mobile communication signal into an intermediate frequency signal, demodulating and outputting the intermediate communication signal, And a transmitter for modulating a mobile communication transmission signal, converting the signal into a mobile communication radio signal, and outputting the signal through a first antenna.

The mobile broadcast receiver of the present invention may further include: an RF unit for receiving a broadcast signal; And a base bend unit for separating the data signal from the broadcast signal received by the RF unit and generating a broadcast data signal using the separated data and outputting the broadcast data signal to the communication modem.

In addition, the wireless LAN interface unit of the present invention includes a MAC (Medium Access Controller); A transmitter for receiving a wireless LAN signal to be transmitted under the control of the MAC controller; An amplifier for amplifying a wireless LAN signal processed by the transmitter, a combiner for combining a mobile communication signal or a broadcasting data signal converted from the amplified wireless LAN signal into the wireless LAN data format; A receiving unit for processing a received wireless LAN signal received from a mobile device via a third antenna under the control of the MAC controller; And outputting a combined signal of the broadcast WLAN signal output from the combining unit and the broadcast data signal or the mobile communication signal converted into the WLAN data format to the third antenna, And an RF switch for selectively switching a signal for output to the receiver.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor can properly define the concept of a term in order to describe its invention in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

According to the present invention as described above, it is possible to support a function of a mobile TV wireless router other than a communication modem function in a communication router, thereby making a combined product.

In addition, according to the present invention, reception quality through a separate mobile broadcasting network can be utilized in addition to the streaming service for viewing terrestrial TV broadcasts.

In addition, according to the present invention, in a mobile device having a communication function, a broadcasting system for terrestrial TV broadcast reception in each country adopts a different standard for each country. However, if the terrestrial TV broadcasting reception function is implemented in a router, There is an advantage that no additional change is required.

1 is a block diagram of a hybrid communication system according to a first embodiment of the present invention.
2 is a configuration diagram of a front end module for mobile communication of FIG.
3 is a detailed block diagram of the mobile broadcast receiver of FIG.
4 is a detailed block diagram of the wireless LAN interface unit of FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The objectives, specific advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a hybrid communication system according to a first embodiment of the present invention.

Referring to FIG. 1, a hybrid communication system according to a first embodiment of the present invention includes first to third antennas 10 to 30, a front end module 100 for mobile communication, a communication modem 200, A receiving unit 300 and a wireless LAN interface unit 400.

The multifunctional communication router performs communication with the mobile communication network using the first antenna 10, receives the broadcast signal using the second antenna 20, and transmits the broadcast signal using the third antenna 30, Lt; / RTI >

Here, the mobile device 500 may be a wireless LAN device such as a notebook computer, a personal digital assistant (PDA), a mobile communication terminal, a personal portable communication terminal, a smart phone, a mobile phone terminal, A terminal having a module (or a card) as well as an RF module enabling the wireless function.

In this configuration, the mobile communication front end module 100 converts the mobile communication signal received through the antenna 10 into an intermediate frequency signal, demodulates it, and outputs it to the communication modem 200. The communication modem 200 And generates a mobile communication radio signal and transmits the radio signal through the antenna 10.

The mobile communication front end module 100 includes a receiving unit having a filter for filtering the received mobile communication signal and a transmitting unit having a power amplifying unit for amplifying a mobile communication transmitting signal. The detailed configuration and operation of the mobile communication front end module 100 will be described separately with reference to FIG.

Next, the communication modem 200 converts the mobile communication signal demodulated and output from the mobile communication front end module 100 into a wireless LAN data format and outputs the converted data, Converts the wireless LAN signal for communication transmission into a mobile communication transmission signal and outputs it.

In addition, the communication modem 200 converts the broadcast data signal output from the mobile broadcast receiver 300 into a WLAN data format and outputs the WLAN data format.

That is, since the mobile communication signal or the broadcasting data signal differs from the wireless LAN signal in terms of the channel bandwidth, the transmission rate, and the modulation / demodulation method, the communication modem 200 transmits the mobile communication signal or the broadcasting data signal to the data format of the wireless LAN signal And converts the wireless LAN signal into a mobile communication signal and outputs it.

For example, in the case of a wireless LAN system, the communication modem 200 performs wireless data communication according to a communication protocol provided by the Institute of Electrical and Electronics Engineers (IEEE) 802.11, so that the communication modem 200 transmits a mobile communication signal or a broadcasting data signal to the IEEE 802.11 communication Protocol to a data format.

The communication modem 200 can be applied to various types of communication modems. For example, a modem according to various wireless systems such as CDMA 1xRTT, GSM, GPRS, 1xEVDO, W-CDMA, personal portable Internet can be applied.

Meanwhile, the mobile broadcast receiver 300 receives the broadcast signal and decodes the multimedia signal and the data.

The mobile broadcast receiver 400 separates / extracts video / audio, synchronized data, service information (SI information), and asynchronous data from a broadcast signal received through a broadcasting network, Signal to the communication modem (200).

In general, a mobile broadcasting system can be developed into a variety of platforms because its frequency band and configuration are different. The characteristics of a mobile broadcasting system according to a frequency band will be described as follows.

In the case of terrestrial mobile broadcasting system using terrestrial (VHF), 6Mhz is divided into 3 frequency blocks again and multiplexed. Each bandwidth is 1.2Mbps. By using video compression technology, Of video, audio and data channels. As a technique used in this case, H.264 (a video standard, which can realize a reception quality corresponding to an analog video tape with a bandwidth of 384 Kbps) and MPEG-4 BSAC (audio standard) can be cited.

In addition, the satellite mobile broadcasting system using microwave (UHF) uses the band of 2.630 ~ 2.655 GHz, and the satellite acts as a repeater. In other words, if various multimedia contents are transmitted in the satellite broadcasting frequency band (Ku band, 12 ~ 13 GHz) at the ground broadcasting center, the satellite will broadcast it to the ground terminal through S band (2.630 ~ 2.655 GHz). Where the satellite signal is insufficient, a repeater called a gap filler is used.

The mobile broadcast receiver 300 according to the embodiment of the present invention can receive and transmit the terrestrial mobile broadcast signal through the second antenna 20. The configuration and operation of the mobile broadcast receiver 300 will be described separately with reference to FIG.

The wireless LAN interface unit 400 receives the mobile communication signal or the broadcasting data signal converted from the communication modem 200 into the wireless LAN data format and transmits the mobile communication signal or the broadcasting data signal to the mobile device 500 through the third antenna 30. [ .

In addition, the wireless LAN interface unit 400 receives the wireless LAN signal transmitted from the mobile device 500 and provides the wireless LAN signal to the communication modem 200. The configuration and operation of the wireless LAN interface unit 400 will be described separately with reference to FIG.

2 is a configuration diagram of a front end module for mobile communication of FIG.

Referring to FIG. 2, the mobile communication front end module of FIG. 1 includes a transmitting / receiving separating unit 110, a receiving unit 120, and a transmitting unit 130.

The receiving unit 120 may include a low noise amplifier (LNA) 122, a receiving filter 124, and a receiving processing module (Rx BBA or RF receiver) 126).

The transmission unit 130 includes a transmission processing module (Tx BBA or RF transmitter) 136, a transmission filter 134, and a power amplifier module (PAM) 132.

The duplexer 110 connected to the antenna 10 separates the transmission and reception signals and transmits the separated transmission and reception signals to the antenna 10 or the reception unit 120. That is, the duplexer 110 transmits the mobile communication signal received through the antenna 10 to the receiving unit 120, and transmits the mobile communication radio signal output from the transmitting unit 130 to the antenna 10 .

The reception processing module 126 and the transmission processing module 136 are connected to the communication modem 200. The transmission processing module 136 and the reception processing module 126 are connected to each other by a mobile communication intermediate frequency signal or a digital signal Modulation / demodulation processing, and processes A / D or D / A conversion.

That is, the reception processing module 126 converts the mobile communication signal into an intermediate frequency signal, demodulates and outputs the intermediate communication signal, and the transmission processing module 136 modulates the communication communication transmission signal to generate and output a mobile communication radio signal.

The transmission filter 134 or the reception filter 124 filters the transmission band frequency signal or the reception band frequency signal and the power amplification stage 132 and the low noise amplification stage 122 process the transmitted signal as a transmission signal or a reception signal And amplifies the signal into a signal of a predetermined size.

3 is a detailed block diagram of the mobile broadcast receiver of FIG.

As shown in FIG. 3, the mobile broadcast receiver of FIG. 1 includes an RF unit 310 and a base bend unit 320.

When the broadcast signal is received through the second antenna 20, the RF unit 310 selectively selects a signal through the synchronization unit and converts the selected signal into an intermediate frequency band signal.

The RF unit 310 may include a low noise amplifier (LNA), a band pass filter (BPF), a mixer, a phase locked loop (Rx PLL), and an intermediate frequency (Rx IF) Filters, and the like.

The baseband unit 320 performs channel decoding to separate service information (SI) and main data. Then, the baseband unit 320 separates the multimedia stream (video / audio, synchronization data) and the asynchronous data from the main data loaded through the main data channel using the separated service information SI And generates a broadcast data signal. In the present invention, the baseband unit 320 uses the separated service information (SI) to transmit multimedia streams (video / audio, synchronization data) and asynchronous data from the main data transmitted through the main data channel Only the parse process is performed, and demodulation is not performed. Since the baseband unit 320 does not perform the demodulation, the baseband unit 320 can have a simple structure, thereby reducing the cost, speedy signal processing, and reducing the load generated during signal processing.

The baseband unit 320 may be an analog / digital signal converter (ADC), a fast Fourier transform (FFT) circuit, a low pass filter (LPF), or the like.

4 is a detailed block diagram of the wireless LAN interface unit of FIG.

1, the wireless LAN interface 400 includes a MAC controller 410, a transmitter 420, an amplifier 430, a coupler 440, a receiver 450, and an RF switch 460 ). ≪ / RTI >

The MAC controller 410 processes the input / output packet data IRP transmitted from the central processing unit (CPU) (not shown) and outputs the signal to the transmitter 420 and the signal received through the third antenna 30 And transmits the signal to the central processing unit.

The MAC controller 410 performs bus communication with the central processing unit through a PCI interface block (not shown) for interfacing with a PCI (Peripheral Component Interconnector) bus connected to the central processing unit (CPU) can do.

The transmission unit 420 processes the transmission WLAN signal to be transmitted to the mobile device 500 through the third antenna 30 under the control of the MAC controller 410. The amplification unit 430 amplifies the transmission WLAN Amplifies the output of the signal.

The combining unit 440 couples the transmission wireless LAN signal output from the amplifying unit 430 with the broadcasting data signal or the mobile communication signal converted into the wireless LAN data format output from the communication modem 200.

The receiving unit 450 processes the wireless LAN signal received from the mobile device 500 through the third antenna 30 under the control of the MAC controller 410.

The RF switch unit 460 selectively outputs the transmission wireless LAN signal, the broadcasting data signal or the combined mobile communication signal and the reception wireless LAN signal received through the third antenna 30, Lt; / RTI >

That is, when it is desired to transmit a signal combined with a broadcast data signal or a mobile communication signal converted from the transmission WLAN signal to the WLAN data format to the mobile device 500 through the third antenna 30, 460 may select a signal output from the amplification unit 430 and output the selected signal to the third antenna 30. The RF switch unit 460 selects a signal output from the third antenna 30 and outputs the selected signal to the receiver 450 through the third antenna 30, ).

The third antenna 30 transmits the transmission wireless LAN signal and the broadcasting data signal converted into the wireless LAN data format or the combined signal of the mobile communication signal to the mobile device 500 located within the wireless radius.

The mobile device 500 may include a wireless LAN card (not shown) for receiving the broadcasting data signal converted into the non-wireless data format or the wireless LAN signal combined with the mobile communication signal.

Since the mobile communication signal or the broadcast data signal combined with the WLAN signal is converted into the data format of the WLAN signal in the communication modem 200, the mobile device 500 can transmit the data format of the WLAN signal It is preferable that the mobile communication signal or the broadcast data signal converted to be converted into a mobile communication signal or a broadcast data signal is processed again by inverse conversion.

Therefore, the mobile device 500 located within the radio radius of the MTC hybrid router according to the present invention does not have a separate communication or broadcasting data reception device, Only software for converting the data format of the broadcast data is installed, and it is possible to selectively transmit / receive the communication data at a desired time or to view the broadcast.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be apparent to those skilled in the art that changes may be made.

10, 20, 30: antenna 100: mobile communication front-end module
110: transmitting / receiving separating unit 120: receiving unit
130: Transmitting unit 200: Communication modem
300: mobile broadcast receiving unit 310: RF unit
320: base band unit 400: wireless LAN interface unit
410: Mac controller 420: Transmitter
430 amplifying section 440 coupling section
450: Receiving unit 460: RF switch unit
500: Mobile device

Claims (4)

A mobile communication front end module for receiving a mobile communication signal through a first antenna and converting it into an intermediate frequency signal, demodulating and outputting the demodulated mobile communication signal, converting the demodulated mobile communication transmission signal into a mobile communication radio signal, ;
A mobile broadcast receiver for receiving a broadcast signal through a second antenna and separating data and generating and outputting a broadcast data signal using the separated data;
Converts the demodulated mobile communication signal output from the mobile communication front end module into a WLAN data format and outputs the WLAN data format, converts the broadcasting data signal output from the mobile broadcasting receiver into a WLAN data format, A communication modem for converting a wireless LAN signal into a mobile communication transmission signal and providing the wireless communication signal to the mobile communication front end module; And
And transmits the mobile communication signal or the broadcasting data signal converted to the wireless LAN data format output from the communication modem to the mobile device through the third antenna, and transmits the wireless LAN signal for mobile communication transmission And provides the communication modem with the wireless LAN interface. The method according to claim 1,
The mobile communication front end module comprises:
A receiver for receiving a mobile communication signal from a mobile communication network through a first antenna, converting the mobile communication signal into an intermediate frequency signal, demodulating and outputting the intermediate communication signal; And
And a transmitter for modulating a mobile communication transmission signal, converting the signal into a mobile communication radio signal, and outputting the signal through a first antenna. The method according to claim 1,
The mobile broadcast receiver
An RF unit for receiving a broadcast signal; And
And a base bend unit for separating a data signal from the broadcast signal received by the RF unit, generating a broadcast data signal using the separated data, and outputting the broadcast data signal to the communication modem. The method according to claim 1,
Wherein the wireless LAN interface unit comprises:
A MAC (Medium Access Controller);
A transmitter for receiving a wireless LAN signal to be transmitted under the control of the MAC controller;
An amplifying unit amplifying a wireless LAN signal processed by the transmitting unit;
A combining unit for combining the amplified wireless LAN signal with a mobile communication signal or a broadcasting data signal converted into the wireless LAN data format;
A receiving unit for processing a received wireless LAN signal received from a mobile device via a third antenna under the control of the MAC controller; And
And outputting a combined signal of the amplified wireless LAN signal output from the combining unit and the broadcast data signal or the mobile communication signal converted to the wireless LAN data format to the third antenna, And an RF switch for selectively switching a signal to be output to the receiver.

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